US1600493A - Means for treating ceramic mixtures - Google Patents

Means for treating ceramic mixtures Download PDF

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Publication number
US1600493A
US1600493A US92788A US9278826A US1600493A US 1600493 A US1600493 A US 1600493A US 92788 A US92788 A US 92788A US 9278826 A US9278826 A US 9278826A US 1600493 A US1600493 A US 1600493A
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United States
Prior art keywords
valve
detent
vessel
plunger
cylinder
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Expired - Lifetime
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US92788A
Inventor
Spurrier Harry
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NORTHWESTERN TERRA COTTA Co
NORTHWESTERN TERRA COTTA COMPA
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NORTHWESTERN TERRA COTTA COMPA
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Priority to US92788A priority Critical patent/US1600493A/en
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    • CCHEMISTRY; METALLURGY
    • C04CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
    • C04BLIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
    • C04B33/00Clay-wares
    • C04B33/28Slip casting
    • CCHEMISTRY; METALLURGY
    • C04CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
    • C04BLIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
    • C04B33/00Clay-wares
    • C04B33/30Drying methods
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/8593Systems
    • Y10T137/86493Multi-way valve unit
    • Y10T137/86718Dividing into parallel flow paths with recombining
    • Y10T137/86759Reciprocating
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/8593Systems
    • Y10T137/86493Multi-way valve unit
    • Y10T137/86863Rotary valve unit

Definitions

  • HARRY sP-Unamiz "or CEICAGQ, ,ILrrnors AssreNo'n To NonTTTWnsTEnN TnRIaA OOTTA com PAnY, or O HIAeo, Trainers, A CORPORATION or Infancia. ⁇
  • the present invention relates to means for Upstanding portions 10 provide guideways treating ceramic mixtures.
  • the present invention relates'to lmproved means for carrying out the processdescri'bed in United States Let-v ters Patent No. 1,559,652, granted November 3, 1925, to the present applicant. ⁇
  • a ceramic mixture' is subject-- ed to reduced air pressure, commonly. referred to as a vacuum, and the vacuum is suddenly broken, whereby to effect the elimii nation of gases Yfrom said mass.
  • a further object is to provideian 1mproved ⁇ vessel adapted to contain a mass Aof with means for evacuating the air therefrom and with mea-ns for ⁇ suddenlyl breaking the vacuum within said vessel.
  • Figure 1 is a view, in side elevation of one embodiment of .the present invention
  • Figure 2 is a sectional view, .on an enas the de# Y larged scale, of part of the structure shown in Figure 1, which view shows a ynovel type of air inlet valve and Acontrol means therefor, said sectional view being .taken along, ⁇ the plane indica-ted by thek arrowsy 2,-2 :foff]5 ⁇ ig ure 3;
  • Figure 5 is a 4viewof-a modified formnof valve.V v v 1
  • the numeral 1 indicates a vessel ⁇ - adapted to contain ceramic materials. Saidvessel by, the arrows of iis: provided with the ,evacuating .pipe 2,- ⁇
  • a pressure gauge 5 may be provided for indicating the pressure within said cylinder-'1.
  • the cylinder 1 is ⁇ provided on its - ⁇ upper portion with an aperture, indicated by the numeral 6, above which aperture is mounted the ⁇ valve seat 7, comprising a plurality of bridges 8--8 spaced apart by spaces9-9.
  • re 4y is asectional view taken along.
  • said valve may open with a snap action', a
  • Said controlling device 14 comprises a. ⁇ housing 15, which may be mounted inianyfpre-v as, for example, upon the guideways 10,'be'- ing secured by means f of screws 15a-15'?.
  • Saidl housing hasY mounted therein the plunger 16, .which plunger is connected vatv oneof its'fextremitieslto .the bracket 17, 'con- ⁇ nected to the valve 11 as, ,forexample .by means .of cap screws, oneeof whicliis indicated Vbyy t-he numeral -17 a.' 'Secured inter?.
  • EA compression spring 201 isV provided between theend wallv ⁇ l ofthe housing 15 and said abutmentv mem- ⁇ ber 18, whereby to bias said plunger towardth'eright as the parts are viewed in Figure 2.
  • the spring 20 biases the parts.
  • Both end walls of thefhousing 15 are preferably removable, the end wall 23 compris- T ing one abutment for the spring 2O and the other end wall 24pproviding pivotal mounting means for the operating lever for controlling said plunger 16 and the detent for A controlling said plunger, n-hiclrparts will vlo now be brieiiy described.
  • Said end wall ⁇ 24 is provided with the bracket 25, having piv-f otally mounted thereonv the operating lever 26, which operating lever is adapted to abut against the.
  • Said shoulder 29 is adapted to be eiir,a'getl V by a gravity responsive detent -30 mounted to-reci-p'rocate within the bracket 31.
  • Saidv detent 30 is connected by means ofl th-e'link 32 with the yweighted lever ⁇ 33.
  • the ⁇ modification shown in Figure 5 includes the rotary valve 34, having thev bridging members 35-35, which are lseparated bythe v apertures 36436.
  • v Said bridging members 35 are adapted to close apertures in the wall Yoi the vessel 1 whensaid valve is in one selectable position, and to permit access through said aperturesfwhen -saidvalve is in Y
  • a tension-v springf37 biases said rotary, valve 34m a! anothery selectable position? counterclockwise direction, themovement of said valve being limited by reason of the entation of said valve 34 in a clockwise direc tion.
  • a shoulder 42 is provided, adaptedv to be engaged by a detent 43 which is adapted to reciprocate. in a bracket 44.
  • a ⁇ weighted lever 45 is provided for"V biasing said detent 43 toits lowermost 4position and said detent 43 when desired.
  • I claim Means' fortreating materials comprising n a vessel, means forevacuating the airtrom said vessel, and an air controlling means" tor governing communication*between ⁇ the interior of said vessel and the outside atmos- ⁇ phere, said air controlling means comprising a valve, a spring' for bias/ingA said valve' to open position, means for moving said vvalve to closed position in opposition" tov 'said spring, and detentl means forv releasably hold-l ing said valve ⁇ in closed position.

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Ceramic Engineering (AREA)
  • Dispersion Chemistry (AREA)
  • Materials Engineering (AREA)
  • Structural Engineering (AREA)
  • Organic Chemistry (AREA)
  • Mechanical Engineering (AREA)
  • Respiratory Apparatuses And Protective Means (AREA)

Description

Sept. w21, 1926.
H. SPURRIER MEANS FOR TREATING CERAMIC MIXTURES Filed March 6. 1926 2 Sheets-Sheet l Sept. 21 ,1926. v 1,600,493
H. SPURRIER MEANS FOR TREATING CERAMlC MIXTURES Miilm Aceramic materialjwhichvessel is provided Patented Sept. 21 '1926.
UNITED. STATES.
PATENT OFFICE..
HARRY sP-Unamiz, "or CEICAGQ, ,ILrrnors AssreNo'n To NonTTTWnsTEnN TnRIaA OOTTA com PAnY, or O HIAeo, Trainers, A CORPORATION or Infancia.`
MEANS FQRTREATING CERAMIC MTXTURES..
` Application led- March, 1926. Serial No. 92,788.
- The present invention relates to means for Upstanding portions 10 provide guideways treating ceramic mixtures.
More particularly the present invention relates'to lmproved means for carrying out the processdescri'bed in United States Let-v ters Patent No. 1,559,652, granted November 3, 1925, to the present applicant.` According to said process, a ceramic mixture'is subject-- ed to reduced air pressure, commonly. referred to as a vacuum, and the vacuum is suddenly broken, whereby to effect the elimii nation of gases Yfrom said mass.
An Object of the present invention 1s to provide an improved means for suddenly opening a vessel whereby to admit air there.
to with suddenness and in large'quantities..
A further object is to provideian 1mproved `vessel adapted to contain a mass Aof with means for evacuating the air therefrom and with mea-ns for` suddenlyl breaking the vacuum within said vessel. Y
Further lobjects will appear scription proceeds.
Referring to the .drawings- Figure 1 is a view, in side elevation of one embodiment of .the present invention; Figure 2 is a sectional view, .on an enas the de# Y larged scale, of part of the structure shown in Figure 1, which view shows a ynovel type of air inlet valve and Acontrol means therefor, said sectional view being .taken along,` the plane indica-ted by thek arrowsy 2,-2 :foff]5`ig ure 3;
`Figure 3. is an end View -of 'thestructure shown in Figuresl and 2;
Fi the plane indicated Figure3;and" .1. Figure 5 is a 4viewof-a modified formnof valve.V v v 1 The numeral 1 indicates a vessel`- adapted to contain ceramic materials. Saidvessel by, the arrows of iis: provided with the ,evacuating .pipe 2,-`
which is connected .to the vacuum plum-p3, the manually operable .valve 4 being provided to control the connection'hetween 'said v pipe V3 and: said .g cylinder 1.
A pressure gauge 5 may be provided for indicating the pressure within said cylinder-'1.
The cylinder 1 is `provided on its -`upper portion with an aperture, indicated by the numeral 6, above which aperture is mounted the` valve seat 7, comprising a plurality of bridges 8--8 spaced apart by spaces9-9.
re 4y is asectional view taken along.
titl
ingpreferably a little wider than the apertures.v When'the valve 11 is in one selectable position, the bridge; members 1212 thereof will bridge the apertures 9&9 of the'valve seat to close the cylinder 1 from accessto the atmosphere.A When the valve 11 is inane, other selectable position, thatv is-the po#l sition indicated in Figure 2, the'apertures 13.-13 of said Avalve 11 willi coincide with the apertures 9 9 of theva'lve seat 7 and ready access is had between the interior of the cylinder 1- andthe outside atmosphere.
For controlling said valve'll` in order .that
v said valve may open with a snap action', a
spring Operated device is provided, which is' indicated as a whole by thenumeral 14. Said controlling device 14 comprises a. `housing 15, which may be mounted inianyfpre-v as, for example, upon the guideways 10,'be'- ing secured by means f of screws 15a-15'?. Saidl housing hasY mounted therein the plunger 16, .which plunger is connected vatv oneof its'fextremitieslto .the bracket 17, 'con-` nected to the valve 11 as, ,forexample .by means .of cap screws, oneeof whicliis indicated Vbyy t-he numeral -17 a.' 'Secured inter?.
f ferred way upon the top of they cylinder 1,f
mediate offthe plunger. 1 6` ijs the abutment,l
member 18, which is adjustable 'relativeito the length of the'plung'er 1.6,.a'set'screw 19 beingprovided to holdosaid abutment mem,-y ber 18-in adjusted position. EA compression spring 201isV provided between theend wallv` l ofthe housing 15 and said abutmentv mem-` ber 18, whereby to bias said plunger towardth'eright as the parts are viewed in Figure 2. Expressed in otherlanguage, the spring 20 biases the parts. to.y the vposition shown in Figure 2, in which .the apertures 13-'13"of the v alvell .coincide withthel apertures9T-9- :of the valve seat 7 A; bracket 21 and filler plate 22 serve to limit movement of the valve 11 towardthe right. Y
Both end walls of thefhousing 15 are preferably removable, the end wall 23 compris- T ing one abutment for the spring 2O and the other end wall 24pproviding pivotal mounting means for the operating lever for controlling said plunger 16 and the detent for A controlling said plunger, n-hiclrparts will vlo now be brieiiy described. Said end wall`24 is provided with the bracket 25, having piv-f otally mounted thereonv the operating lever 26, which operating lever is adapted to abut against the. extremity ot the` plunger 16; Counterclockwise movement oi said lever 26 i will result in the movement toward the left Said shoulder 29 is adapted to be eiir,a'getl V by a gravity responsive detent -30 mounted to-reci-p'rocate within the bracket 31. Saidv detent 30 is connected by means ofl th-e'link 32 with the yweighted lever`33.
It will be clear that when the lever 26. Vis
moved ina countcrclockwise direction the.
" aluneer 16 rwill be moved to thepl-ett compressing the spring 2O and movingtlie valve 11`toward the lett. lVlienthe bridge vmembers 12-12 of the valve 11 are in position to cover the apertures 9 9 of' the valve seat' 7, theshoulder 29 ot the. plunger 16V will bev in position to be engaged by the detent 30,
whereby said detent will hold said parts in said .position to cutoff communication. from the interionof'the vessel 1I to the outside atmosphere.'r
tov the vessel 1, the lever 33 may be' lifted wherebyV to tree the detent30 from theY shoulder. 29, after which .the spring 20-will :move the plunger 16 and valve=12 suddenly` f to the right to the position shown in Figure 'said valve 2, withfthe right-handend of abutting against the plate 22.v
v-fkccorfdingr tothe modification lshown. in.V ,Figure "5, a'rotary-'valve is provided which maybe mounted upon a kwall of the vesselil.r
The `modification shown in Figure 5 includes the rotary valve 34, having thev bridging members 35-35, which are lseparated bythe v apertures 36436..v Said bridging members 35 are adapted to close apertures in the wall Yoi the vessel 1 whensaid valve is in one selectable position, and to permit access through said aperturesfwhen -saidvalve is in Y A tension-v springf37 biases said rotary, valve 34m a! anothery selectable position? counterclockwise direction, themovement of said valve being limited by reason of the entation of said valve 34 in a clockwise direc tion. When the valve is in the position indicated by thedotted lines 41, access is cut oit' between the outside atmosphere and the interiorrot1 the cylinder 1. In order to hold the rotary valve 34 in the position to close access to the interior of the cylinder 1, a shoulder 42 is provided, adaptedv to be engaged by a detent 43 which is adapted to reciprocate. in a bracket 44. A`weighted lever 45 is provided for"V biasing said detent 43 toits lowermost 4position and said detent 43 when desired. Y.
It willbe clear that when the structure shown lin Figure 5 is being used, the operator may close access to the cylinder 1 by'grasping4 the handle 40 andV movingthe rotaryV for lifting the outside to the .interior of said cylinderl.
At this time the stop 42-will beA in position to be engaged by the detent 43 and said rotary valve'will be held in closing position by saidfdetent 43. VVhen it is desi'red'tosudl denly admit air'to thevessel l, the lever '45V will be raised, whereby the'detent `43 is treed from the stop ment to a position wherein ythe stop38 "abuts l Y l' against thebracket 39, in which positionv kac- VVhen it isdesired to admit air suddenly vThough-` two` embodiments' ot the presentv invention have been described in detail, Vit
42. I. The spring :37 i will then rotate the valve 34 'with a suddenV snapi'iiove-V will be clear that many modifications will occur-to those skilled `inthe art. Qlt yis tended 'totcover all 'such modifications that fall 'within the-scope'ot the appended-claim.
I claim Means' fortreating materials, comprising n a vessel, means forevacuating the airtrom said vessel, and an air controlling means" tor governing communication*between`the interior of said vessel and the outside atmos-` phere, said air controlling means comprising a valve, a spring' for bias/ingA said valve' to open position, means for moving said vvalve to closed position in opposition" tov 'said spring, and detentl means forv releasably hold-l ing said valve `in closed position.y v
ASigned at Chicago, Illinois, this 3rd day of'March,"1926.
.HARRY Semen"
US92788A 1926-03-06 1926-03-06 Means for treating ceramic mixtures Expired - Lifetime US1600493A (en)

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